Circulating neuregulin during the transition from stage A to stage B/C heart failure in a breast cancer cohort.

BACKGROUND: Breast cancer (BC) treatments can cause heart failure (HF) in a subset of patients. ACC/AHA guidelines classify patients receiving cardiotoxic medications as stage A, a high-risk population for the development of HF. Circulating neuregulin (NRG) correlates with outcomes in stage C and D HF. We examined the levels of NRG in a BC cohort receiving cardiotoxic chemotherapy and its relationship with adverse cardiac effects during the transition from stage A to stage B or C HF. METHODS AND RESULTS: In an ongoing prospective study, a planned interim analysis of 78 BC women receiving either anthracycline (AC) or trastuzumab (Tsz) was performed. Biometric data, cardiac risk factors, and NRG levels, were collected before chemotherapy and after completion of AC therapy and/or 3 months into Tsz therapy. Cardiac function was measured by left ventricular ejection fraction (LVEF) by echocardiography at the above time points and longitudinally as standard of care. The interim cohort was predominately white with stage II BC and a median age of 50 years. A reduction of >10 absolute percentage points in LVEF was observed in 21.4% of the cohort, representing a transition from stage A to stage B or C HF. A statistically significant drop in plasma NRG was observed in women treated with AC and/or Tsz (P < .001). Additionally, baseline NRG correlated with the maximal change in LVEF. CONCLUSIONS: More than 20% of women experienced cardiac dysfunction, detected by decline in LVEF, and were reclassified as stage B or C HF. Plasma NRG levels were reduced after exposure to cardiotoxic chemotherapy, suggesting a loss in a cardioprotective growth factor. Higher baseline NRG levels were observed in those with the greatest decline in LVEF, supporting the continued investigation of NRG as a potential prognostic marker in early-stage HF.

Cardiac side effects of anticancer treatments: new mechanistic insights.

Damage to heart cells leading to heart failure is a known complication of well-established cancer therapies including anthracycline antibiotics and radiation therapy, and the cardiovascular complications of these therapies has been controlled in large part through dose limitations and modifications of delivery methods. Recent research into the cellular and molecular mechanisms for the cardiovascular effects of these therapies may lead to other cardioprotective strategies that improve effectiveness of cancer treatments. Newer cancer therapies that have been developed based upon specifically targeting oncogene signaling also have been associated with heart failure. Rapid development of a detailed understanding of how these agents cause cardiac dysfunction promises to improve outcomes in cancer patients, as well as stimulate concepts of cardiovascular homeostasis that will likely accelerate development of cardiovascular therapies.

Circulating neuregulin-1ß levels vary according to the angiographic severity of coronary artery disease and ischemia.

BACKGROUND: Coronary artery disease (CAD) is the leading killer in the United States. Patients with severe CAD and ischemia have worse prognosis. Therefore expansion of biomarker research, to identify at-risk individuals and explain the complex biology between cardiovascular growth factors and atherosclerosis is needed. Neuregulin-1ß (NRG-1ß) is a myocardial stress activated growth and survival factor released from endocardial and endothelial cells. NRG-1ß is essential for cardiovascular development and a regulator of angiogenesis. We postulated that plasma and serum levels of NRG-1ß would vary in relation to CAD severity and the presence of stress-induced ischemia. METHODS: We measured serum and plasma levels of NRG-1ß and vascular endothelial growth factor (VEGF) in 60 patients undergoing cardiac catheterization. CAD severity was calculated from angiographic results using a modified Duke jeopardy score. RESULTS: Serum NRG-1ß (sNRG-1ß), plasma NRG-1ß (pNRG-1ß), serum VEGF, and plasma VEGF were detectable in the majority of patients. The pNRG-1ß levels were approximately two-fold higher than sNRG-1ß. Both sNRG-1ß and pNRG-1ß correlated inversely with CAD severity. pNRG-1ß levels were statistically higher in patients with stress-induced ischemia denoted by a positive myocardial perfusion imaging study that correlated with angiographic findings (P=0.02). CONCLUSION: Both sNRG-1ß and pNRG-1ß correlated inversely with angiographic severity of CAD. pNRG-1ß levels were two-fold higher than serum and were higher in patients with stress-induced ischemia. Therefore we conclude that plasma is the optimal source for the further exploration of the biological significance of NRG-1ß as a biomarker of CAD severity and ischemia.

Neuregulin-1ß regulation of embryonic endothelial progenitor cell survival.

Endothelial progenitor cells (EPCs) are mobilized into the vascular space and home to damaged tissues, where they promote repair in part through a process of angiogenesis. Neuregulins (NRGs) are ligands in the epidermal growth factor family that signal through type I receptor tyrosine kinases in the erbB family (erbB2, erbB3, and erbB4) and regulate endothelial cell biology, promoting angiogenesis. Stimuli such as ischemia and exercise that promote EPC mobilization also induce cleavage and release of transmembrane NRG from cardiac microvascular endothelial cells (CMECs). We hypothesized that NRG/erbB signaling may regulate EPC biology. Using an embryonic (e)EPC cell line that homes to and repairs injured myocardium, we were able to detect erbB2 and erbB3 transcripts. Identical receptor expression was found in EPCs isolated from rat bone marrow and human whole blood. NRG treatment of eEPCs induces phosphorylation of kinases including Akt, GSK-3ß, and Erk1/2 and the nuclear accumulation and transcriptional activation of ß-catenin. NRG does not induce eEPC proliferation or migration but does protect eEPCs against serum deprivation-induced apoptosis. These results suggest a role for tissue-derived NRG in the regulation of EPC survival.

Mechanisms of anthracycline cardiotoxicity and strategies to decrease cardiac damage.

Anthracyclines are common chemotherapeutic agents used to treat many different types of cancer. Unfortunately, the use of anthracyclines is limited by their cardiotoxic effects, which may become manifest as late as 20 years from initial exposure. Studies in cells and animals suggest that the mechanism of anthracycline-induced cardiotoxicity (AIC) is multifactorial. Anthracyclines induce multiple forms of cellular injury by free radical production. In addition, anthracyclines alter nucleic acid biology by intercalation into DNA and modulate intracellular signaling, leading to cell death and the disruption of homeostatic processes such as sarcomere maintenance. In an effort to decrease AIC, many strategies have been tested, but no specific therapies are universally acknowledged to prevent or treat anthracycline-induced cardiac dysfunction. Newer imaging modalities and cardiac biomarkers may be useful in improving early detection of cardiac injury and dysfunction. As long as there is no cardiac-specific therapy for AIC, evidence suggests that high-risk patients will benefit from prophylactic treatment with neurohormonal blockade by angiotensin-converting enzyme inhibitors and beta-adrenergic receptor blockers.

Blunted hemodynamic response and reduced oxygen delivery with exercise in anemic heart failure patients with systolic dysfunction.

Anemic heart failure patients with systolic dysfunction are known to have reduced exercise capacity. Whether this is related to poor hemodynamic adaptation to anemia is not known. Peak exercise oxygen consumption (VO2) and hemodynamics at rest and peak exercise were assessed among 209 patients and compared among those who were (n=90) and were not (n=119) anemic. Peak VO2 was significantly lower among anemic patients (11.7+/-3.3 mL/min/kg vs 13.4+/-3.1 mL/min/kg; P=.01). At rest, right atrial pressure was higher (10+/-5 mm Hg vs 8+/-4 mm Hg; P=.02) and venous oxygen saturation lower (62%+/-8% vs 58%+/-10%; P<.01) among anemic patients. At peak exercise, anemic patients had a higher wedge pressure (27+/-9 mm Hg vs 24+/-10 mm Hg; P=.04). No significant differences in stroke volume, cardiac index, systemic vascular resistance, or oxygen saturation were noted between the 2 groups. In conclusion, the relative hemodynamic response to exercise among anemic heart failure patients appears blunted and may contribute to worse exercise tolerance.

Addressing the challenges of cardiorenal syndrome.

In heart failure, as the heart gets worse, often so do the kidneys, complicating the treatment of heart failure and worsening the prognosis. This article addresses challenges in the use of diuretics, angiotensin-converting enzyme (ACE) inhibitors, and other therapies in the cardiorenal syndrome, as well as novel therapies that hold promise, such as arginine vasopressin antagonists, adenosine A1 receptor antagonists, and ultrafiltration.

Relationship between renal function and left ventricular assist device use.

BACKGROUND: Poor renal function may affect outcomes after left ventricular assist device (LVAD) placement. Conversely, LVADs may optimize circulation and improve renal function. METHODS: To assess the relationship between renal function and LVAD use, changes in creatinine clearances (CrCl, in mL/min) were assessed retrospectively in 220 patients who underwent LVAD placement. These patients were also divided into four groups based on CrCl quartiles (< 47, 48-68, 69-95, and > 95) and compared for outcomes post-LVAD placement. RESULTS: Eighty-four patients died on LVAD support. Survival on LVAD was worse for patients with the worst baseline CrCl (42%, 52%, 63%, and 79% for 6 month and 26%, 34%, 47%, and 66% for 12 month survival for quartiles 1-4; both p < 0.01 for trend). Adjusting for other covariates, patients in the lowest CrCl quartile were at a higher risk of dying postimplant (odds ratio 1.95, 95% confidence interval 1.14-3.63). Paired sample analysis showed the following changes in CrCl: preoperative to week 1, 77.0 +/- 46.6 to 92.1 +/- 51.1 (p < 0.01; n = 202), week 1 to 2, 89.4 +/- 49.2 to 95.2 +/- 52.4 (p = 0.01, n = 171), week 2 to 3, 107.5 +/- 58.1 to 113.7 +/- 66.1 (p = 0.16, n = 74), and week 3 to 4, 111.1 +/- 56.6 to 110.5 +/- 56.8 (p = 0.87, n = 60). For the 60 patients with baseline CrCl less than 50, CrCl increased from 36.7 +/- 9.2 to 60.1 +/- 35.5 (p < 0.01; n = 55 pairs) from preimplant to week 1. In 37 of these patients (62%) on intraaortic balloon pump support preimplant, CrCl increased from 38.4 +/- 8.2 to 67.9 +/- 40.3 mL/minute (p < 0.01) during week 1 postimplant. Recovery of renal function to CrCl greater than 50 was associated with a trend towards better 30-day survival (84% vs 66%, p = 0.09). CONCLUSIONS: Baseline poor renal function is associated with worse outcomes after LVAD implantation. However, renal function improves substantially and rapidly in post-LVAD survivors and is associated with improved outcomes. These data underscore the importance of careful patient selection for LVAD therapy.